农光互补系统将光伏装置直接安装在农田上方或内部,形成一个太阳能发电和作物种植同时进行的双用途系统。其基本原理是利用许多作物对部分遮荫的耐受性,降低光合有效辐射可以减少热辐射。 压力减少蒸散量,提高水分利用效率——通常能保持或提高产量,与未遮荫的单一栽培相比。
系统设计变量包括面板高度、行距、倾斜角度和模块透明度,所有这些变量均根据特定作物的光合作用响应曲线进行调节。食物-能源-水关系为更广泛的研究奠定了基础,这些研究延伸至授粉媒介栖息地、放牧整合和农村能源自主等领域。
本页面汇总了农光互补系统设计、作物科学和部署经济学领域最新的同行评审出版物和已授予专利:
这是我们最新精选的全球英文农光互补出版物和专利,涵盖众多科学在线期刊,并按以下主题分类和重点关注:土地双重利用、光伏板下作物产量、光合有效辐射、部分遮荫耐受性、光截获模型、微气候改造、蒸散量减少、土壤水分保持、光伏板高度优化、行距配置、双面农光互补光伏板、半透明光伏组件、作物选择标准、耐阴作物、授粉昆虫栖息地、农光互补放牧、太阳能绵羊放牧、减少灌溉、粮食-能源-水关系、土地当量比、反照率改变、冠层温度调节、风速降低、湿度缓冲、农光互补系统建模、作物光合作用响应、光谱滤波、垂直农光互补系统、季节性倾斜调整、农村能源自主和农光互补。
出版: 没有关于此特定主题的最新消息。请尝试在上面链接的出版物数据库中进行广泛的人工搜索。
Dynamic carbon sink accounting system based on multi-modal ai remote sensing monitoring and blockchain-based evidence storage
Patent published on the 2026-03-26 in WO under Ref WO2026061545 by SHENZHEN GDR CARBON CO LTD [CN] (Jiang Qunxing [cn], Lai Wenzhen [cn], Zhong Xianchen [cn], Lai Sujuan [cn], Liu Yichen [cn])
Abstract: The present invention relates to the technical field of dynamic carbon sink accounting, and specifically relates to a dynamic carbon sink accounting system based on multi-modal AI remote sensing monitoring and blockchain-based evidence storage. The system collects optical remote sensing, radar, photosynthetically active radiation and meteorological data, performs unified spatiotemporal calibration on the data, and then fuses the calibrated data by means of a cross-modal attention mechanism, so a[...]
Our summary: The system utilizes multi-modal AI remote sensing to monitor carbon sinks. It employs blockchain for secure evidence storage and smart contract functionality. The approach enhances prediction accuracy and transparency in carbon asset management.
carbon sink, remote sensing, blockchain, AI
Patent
